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Involvement of the putative anion transporter 1 (SLC26A6) in permeation of short chain fatty acids and their metabolites across the basolateral membrane of ovine ruminal epithelium: Involvement of the putative anion transporter 1 (SLC26A6) inpermeation of short chain fatty acids and their metabolites across thebasolateral membrane of ovine ruminal epitheliumAlameen Omer, Ahmed Omer 27 September 2016 (has links)
Introduction: Microbial fermentation of carbohydrates in forestomach of ruminants produces large amounts of short-chain fatty acids (SCFA, mainly acetic acid, propionic acid, and n-butyric acid). The majority of these substrates is taken up directly across the ruminal wall. After luminal uptake into the epithelial cells, SCFA mainly occur in the dissociated form due to the intracellular pH of ~7.4. Moreover, a big portion of SCFA is metabolised within the cytosol. Main end products of epithelial SCFA metabolism are ketone bodies (D-3-hydroxybutyric acid and acetoacetic acid) and lactic acid. Both intact SCFA and ketone bodies and lactate need to be efficiently extruded from the ruminal epithelial cells to prevent a lethal drop of intracellular pH and counteract osmotic load of the cytosol. All these substances are less lipophilic in comparison to the undissociated form of SCFA. Thus, dissociated SCFA (SCFA-) and their metabolites need Protein mediated mechanisms for the extrusion across the basolateral side of ruminal epithelium. One mechanism suggested to be involved in the extrusion of SCFA- across basolateral membrane of the ruminal epithelium is the monocarboxylate transporter 1 (MCT1). Functionally, MCT1 was first assumed to operate as proton-coupled transporter for monocarboxylates including SCFA. Nonetheless, a recent study found a bicarbonate dependent anion exchange mechanism which turned out to be sensitive to MCT1 Inhibitors at the basolateral side of the ruminal epithelium pointing to the ability of MCT1 to act as an anion exchanger. However, in these experiments the inhibition of MCT1 abolished bicarbonate dependent transport only by half. This suggests the involvement of further anion exchanger(s) in the transport of SCFA across the basolateral membrane of ruminal epithelium. Promising candidates to underlie this exchange are the putative Anion exchanger 1 (PAT1) and a transport protein designated „down-regulated in adenoma“ (DRA).
Materials and Methods: Sheep rumen epithelium was mounted in Ussing Chambers under short-circuit conditions. Radioactively labelled acetate (ac) was added to the serosal side. Serosal to mucosal flux of ac (Jsm ac) was measured with or without anion Exchange inhibitors (50 mM NO3- or 1 mM DIDS) or the MCT1 inhibitor p-hydroxy mercuribenzoic
acid (pHMB; 1.5 mM) in the serosal buffer solution. The inhibitors were added alone or in combination with each other. Furthermore, mucosal to serosal flux of radioactivelly labelled ac or butyrate (bu) (Jms ac, bu) was measured in the presence or absence of SO42-, Cl- or NO3- (50 mM respectively) as exchange substrate in the serosal buffer solution. Immunohistochemical staining was conducted to locate PAT1 and DRA by use of commercially available antibodies.
Results: NO3- and pHMB significantly reduced Jsm ac by 57 % and 51 %, respectively. When pHMB was applied after pre-incubation with NO3- an additional inhibition of Jsm ac was observed. Vice versa, NO3- further inhibited Jsm ac when epithelia were pre-incubated with pHMB before. DIDS had no inhibitory effect on SCFA flux. Serosal presence of SO42- or Cl- enhanced Jms ac significantly. Regarding bu, Cl- or SO4 2- also enhanced Jms bu significantly. The different anions available in the serosal buffer solution numerically enhanced Jms in the order of SO4 2- > Cl- for both ac and bu, which corresponds to the known affinity sequence of PAT1 and DRA. Immunohistochemistry revealed localization of PAT 1 in the stratum basale, whereas DRA was not detectable using this method.
Conclusions: Basically, this study supports the suggestion that MCT1 works as an Anion exchanger in ruminal epithelium. In addition, it clearly shows that there is at least one further anion exchanger involved in the basolateral extrusion of SCFA and their metabolites. The functional and immunohistochemical findings suggest that PAT1 holds a significant role in this respect.:1 Introduction 1
2 Literature Review 3
2.1 Importance of short-chain fatty acid production of ruminants 3
2.2 Apical uptake of short-chain fatty acids from the rumen 5
2.2.1 Apical uptake of undissociated SCFA from the rumen 6
2.2.2 Apical uptake of dissociated fatty acids from the rumen 8
2.3 Intraepithelial metabolism of short-chain fatty acids 9
2.4 Mechanisms for the basolateral discharge of the short-chain fatty acids 11
2.4.1 Basolateral extrusion of short-chain fatty acids in other gastrointestinal
tract epithelia
12
2.4.2 Basolateral extrusion of short-chain fatty acids in ruminal epithelium 14
2.4.3 Further candidate proteins for extrusion of SCFA- in exchange for HCO3
- 19
2.4.3.1 Putative Anion transporter 1 (PAT1 = SLC26A6) 19
2.4.3.2 Down-regulated in adenoma (DRA = SLC26A3) 21
2.4.3.3 Anion exchanger 2 (AE2 = SLC4A2) 22
2.5 Literature implications for this study 23
3 Materials and Methods 24
3.1 Animals 24
3.2 Ussing chamber studies 24
3.2.1 Buffer solutions 24
3.2.2 Preparation of ruminal epithelium 25
3.2.3 Incubation 25
3.2.4 Electrophysiological parameters 26
3.3 Experimental procedure 27
3.3.1 Determination of the unidirectional SCFA flux rate 29
3.4 Experimental Setups 30
3.4.1 Sensitivity of Jsm
ac
to inhibitors 30
3.4.1.1 Effect of nitrate and pHMB on Jsm
ac 30
3.4.1.2 Effect of DIDS, NO3
- and pHMB on Jsm
ac 31
3.4.2 Effect of the basolateral replacement of the anions on the extrusion of
SCFA
32
3.4.2.1 Effect of Cl- and NO3
- on Jms of acetate and butyrate 32
3.4.2.2 Effect of SO4
2- on Jms of acetate and butyrate 32
3.4.3 Effect of different anions available in the serosal solution on Jms of
acetate and butyrate
33
3.5 Immunohistochemistry 34
3.5.1 Preparation of the samples. 34
3.5.2 Fixation and staining of the samples. 34
3.5.3 Evaluation 35
3.6 Statistical analysis 36
4 Results 37
4.1 Inhibitors sensitivity 37
4.1.1 Effect of nitrate and pHMB on Jsm
ac 37
4.1.2 Effect of DIDS, pHMB and NO3
- on Jsm
ac 41
4.2 Effect of Cl- and NO3
- on Jms of acetate and butyrate 43
4.2.1 Effect of SO4
2- on Jms of acetate and butyrate 44
4.3 Effect of Cl-, NO3
- or SO4
2- when present in the serosal solution for 150 min 49
4.4 Immunohistochemistry 52
5 Discussion 54
5.1Ussing chamber experiments 56
5.1.1 Effect of Cl- and NO3
- on Jms of acetate 56
5.1.2 Effect of nitrate and pHMB on Jsm of acetate 57
5.1.3 Effect of DIDS, pHMB or NO3
- on Jsm of acetat 58
5.1.4 Effect of SO4
2- on Jms of acetate 59
5.1.5 Comparison between different anions as exchange substrate for the
basolateral extrusion of acetate
60
5.2 Immunohistochemistry 62
5.3 Comparison between basolateral extrusion of butyrate and acetate 62
5.4 Conclusions 64
6 Summary 66
7 Zusammenfassung 68
8 References 70
Ac Aknowledgements
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The role of STAT1 in Chlamydia-induced type I interferon responses in oviduct epitheliumHosey, Kristen L. 10 December 2013 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Progression of Chlamydia into upper reproductive tract epithelium and the induction of subsequent immune responses to infection are major contributors to Chlamydia-induced pathogenesis of the genital tract. We reported that C. muridarum infection of the oviduct epithelial cells (OEs) secrete IFN-β in a TLR3 dependent manner. However, we showed that the C. muridarum infected TLR3-deficient OEs were still able to secrete minimal amounts of IFN-β into the supernatants, which is suggestive that there are other signaling pathways that contribute to Chlamydia-induced IFN-β synthesis in these cells. Previous studies describing the activation of the JAK/STAT signaling pathway during Chlamydia infection of cervical epithelial cells proposes a putative role for STAT1 in the synthesis of type I IFNs during Chlamydia infection. The present study investigated the role of STAT1 in Chlamydia-induced IFN-β production in OEs. OEs were infected with Chlamydia muridarum and analyzed at 24 hours by RT-PCR and western blot to determine STAT1 expression. STAT (-/-) OEs were infected and IFN-β production measured by ELISA. Quantitative real-time PCR analyses were performed at 6 and 16 hour post-infection to elucidate the mechanisms involved in IFN-β production during infection. Fluorescent microscopy was used to observe changes in Chlamydia replication. STAT1 activation and expression were significantly increased in wild-type (WT) OEs upon infection. TLR3 (-/-) OEs showed diminished STAT1 protein activation and expression. Augmented STAT1 protein expression corresponded to STAT1 mRNA levels. ELISA analyses revealed significantly less IFN-β production in infected STAT1 (-/-) OEs compared to WT OEs. Quantitative real-time PCR data showed that gene expression of IFN-β and of type I IFN signaling components were significantly increased during late stage Chlamydia infection, dependent on STAT1. Temporal regulation and increases in expression of IFN-α subtypes during infection were STAT1-dependent. Our results implicate STAT1-mediated signaling as a contributor to the C. muridarum-induced synthesis of IFN-β and other type I IFNs in OEs. We previously described a major role for TLR3 in the early-stage Chlamydia-induced synthesis of IFN-β in OEs; the results from this study suggest a role for STAT1 in the synthesis of type I IFNs that occurs during early and late stages of infection.
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Effects of age and Pax6 deficiency on mouse limbal stem cell functionDouvaras, Panagiotis January 2010 (has links)
The conventional view for corneal epithelial maintenance suggests that a stem cell population found in the limbus (at the rim of the cornea) produces daughter cells, called transient amplifying cells, which migrate centripetally. This limbal stem cell (LSC) hypothesis was recently questioned and the alternative model suggests that stem cells are present throughout the corneal epithelium. The main aims of this thesis were to investigate whether age and Pax6 genotype affect LSC function. Previous work with X-inactivation mosaics revealed radial stripes of β-galactosidase-expressing cells in the corneal epithelium (from about 5 weeks of age), which decreased with age and were reduced in Pax6+/- mice (a model for aniridia, a human eye disease). The reduction in Pax6+/- mice could be due to either reduced LSCs function or a more coarse-grained mosaicism caused by reduced cell mixing during development. Comparison of patch sizes in Pax6+/- and wild-type X-inactivation mosaics showed that patches were smaller in Pax6+/- cornea epithelia before the initiation of stripes (3 weeks of age). This implies that stripe-number reduction is not caused by reduced cell mixing, so an effect on LSC function remained a possibility. Thus, the numbers of label-retaining cells (putative stem cells) in Pax6+/- were compared to controls at 15 and 30 weeks old but they were not reduced at 30 weeks or in Pax6+/- mice, as had been predicted. The failure to demonstrate the predicted result suggests either that the hypothesis was incorrect or the experimental approach was inappropriate. Furthermore, it was discovered that mice expressing β-galactosidase under the keratin 5 promoter produced rare stripes in the corneal epithelium, which are likely to represent clonal lineages derived from individual stem cells. Older mice demonstrated a significantly lower frequency of stripes, a result compatible with the predicted reduction of active LSC with age. Pax6+/- corneas were highly abnormal and stripes were not formed properly, so direct comparison was not possible. Finally, pilot experiments with conditional expression of a reporter gene revealed the successful formation of a stripe, and hence provide a plausible alternative approach to compare stripe numbers reflecting active LSCs but the method has yet to be optimised. Overall, the results suggest that LSCs are reduced with age and support the limbal location of stem cells maintaining the corneal epithelium.
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Steroid signalling in the human ovarian surface epithelium wound healingPapacleovoulou, Georgia January 2009 (has links)
The human ovarian surface epithelium (hOSE) is a cell monolayer that covers the surface of the ovary. Natural events like incessant ovulation, associated reproductive hormone action prior to and post-ovulation, along with the ovulationassociated inflammation, that result in injury and repair of hOSE, are considered to have a role in the development of epithelial ovarian cancer (EOC). Progesterone is apoptotic and anti-inflammatory, whereas androgens appear cytoproliferative for hOSE. Local generation of these steroid hormones is subject to 3β-hydroxysteroid dehydrogenase (3β-HSD) activity. Moreover, action of these hormones is achieved through coupling to their cognate receptors, progesterone (PR) and androgen receptors (AR). The overall aim of this thesis is to elucidate in vitro the regulation of progesterone and androgen biosynthesis and downstream signalling during the injury and repair of primary hOSE cells that were collected from pre-menopausal women who underwent surgery for benign gynaecological disorders. Injury was mimicked by treatment of cells with several pro-inflammatory cytokines, whereas repair was mimicked with T-lymphocyte, ‘anti-inflammatory’ cytokines. Immunohistochemical studies showed immunodetectable 3β-HSD in the human ovarian cell surface of whole ovary and three-week cultured hOSE cells, establishing 3β-HSD expression in vivo and in vitro. Cross-reaction of the 3β-HSD antibody with both enzyme isoforms did not allow investigation of isoform expression pattern. However, mRNA transcriptional studies with isoform specific primers and probe sets for semi-quantitative (sq) and quantitative (q) PCR revealed expression of both isoforms in hOSE cells; 3β-HSD1 mRNA was expressed at higher levels relative to 3β-HSD2 mRNA in accordance with the preference of this isoform in peripheral non-steroidogenic tissues. Of the cytokines tested, only IL-1α and IL-4 affected 3β-HSD expression. IL- 1α suppressed 3β-HSD1 mRNA, whereas it up-regulated 3β-HSD2 mRNA as assessed with qPCR, without though affecting total 3β-HSD protein and activity levels as assessed with western immunoblotting and radiometric activity assays, respectively. IL-1α did not affect AR or PR mRNA levels, suggesting a balance in androgen and progesterone biosynthesis during post-ovulatory wounding. IL-4 massively induced 3β-HSD1 and 3β-HSD2 mRNA and total 3β-HSD protein and activity. It also attenuated AR mRNA and protein, without affecting PR mRNA. Collectively, these data demonstrate that IL-4 sustains progesterone rather than androgen signalling and this may be part of the anti-inflammatory steroid action that protects hOSE from genetic damage. IL-1α effects appear to be mediated by NF-κB signalling pathway. PI-3K and p38 MAPK appeared involved in IL-1α-induced 3β- HSD2. IL-4-induced 3β-HSDs required STAT-6 and PI-3K pathways and also p38 MAPK at the case of 3β-HSD2. IL-4-attenuated AR was reversed by a p38 MAPK inhibitor. These data suggest that steroid signalling by IL-1α and IL-4 involve multiple signalling pathways. In primary EOC, 3β-HSD1 and 3β-HSD2 transcripts were attenuated relative to hOSE cells, suggestive of an acquired feature of neoplastic transformation. However, both transcripts could be restored after IL-4 treatment, attesting a therapeutic advantage of this cytokine. In conclusion, we have shown that 3β-HSD is under inflammatory control during ovarian post-ovulatory wound healing of hOSE. IL-1α- and IL-4-mediated 3β-HSD1 and 3β-HSD2 are regulated by multiple signalling pathways. Also, IL-4 was identified as an anti-inflammatory agent in hOSE with putative therapeutic benefit in malignancy.
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The Roles of Elevated Bcl-2 in Ovarian CancerAnderson, Nicole Shree 13 December 2010 (has links)
Ovarian cancer (OC) is the second most common gynecologic cancer; however it is responsible for the most gynecologic cancer-related deaths. Apoptosis evasion is an important mechanism in OC tumorigenesis, and the prototypic anti-apoptotic protein, B-cell lymphoma 2 (Bcl-2), is often overexpressed in OC tumors. Gaining a better understanding of the mechanism(s) behind Bcl-2 overexpression and potential extra-anti-apoptotic functions of Bcl-2 could elucidate the importance of elevated Bcl-2 in OC. In the current study, I show through immunohistochemical analysis of normal, benign, and OC tissue sections, that both epithelial and stromal Bcl-2 expression decreases with OC progression. However, the number of Bcl-2-positive lymphocyte nests and the size of these lymphocyte nests increase dramatically with OC progression. Additionally, this study shows that lysophosphatidic acid (LPA), a glycerophospholipid frequently elevated in serum and ascites fluid of OC patients, upregulates Bcl-2 in OC cells. Bcl-2 enzyme-linked immunosorbant assay (ELISA), western blot analysis, reverse transcriptase polymerase chain reaction (RT-PCR), and luciferase reporter assays reveal that LPA increases Bcl-2 promoter, messenger RNA (mRNA), and protein levels in OC cells, but not in normal immortalized ovarian surface epithelial (IOSE) cells. LPA also increases secreted levels of Bcl-2. In vitro human umbilical vein endothelial cell (HUVEC) tube formation assays show that OC-derived Bcl-2 or recombinant human (rh) Bcl-2 promotes aberrant formation of tube-like structures. Though extracellular Bcl-2 does not affect HUVEC cell viability, it may cause aberrant tube formation by inhibiting HUVEC migration. Finally, Bcl-2 ELISA reveals that urinary Bcl-2 levels in OC patients are higher than those in normal individuals and patients with benign gynecologic disease. Urinary Bcl-2 also complements serum CA125 when the two are compared in parallel samples. Furthermore, urinary Bcl-2 decreases following cytoreductive surgery. Altogether, the results suggest that Bcl-2 is important in OC tumorigenesis and angiogenesis. Additionally, urinary Bcl-2 may be a valuable non-invasive biomarker for OC diagnosis and/or screening. Consequently, further elucidation of mechanisms of Bcl-2 overexpression and its extra-apoptotic functions could lead to improved treatment and diagnostic strategies for OC patients.
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Functional Aspects of Epithelia in Cystic Fibrosis and AsthmaServetnyk, Zhanna January 2008 (has links)
<p>The cystic fibrosis transmembrane conductance regulator (CFTR), a cAMP activated chloride channel in the apical membrane of epithelial cells, is defective in patients with cystic fibrosis (CF). Research efforts are focused on chloride channel function in order to find a cure for the disease.</p><p>Genistein increased chloride transport in normal and delF508-CFTR cultured airway epithelial cells without cAMP stimulation. Prior pretreatment with phenylbutyrate did not affect the rate of the genistein-stimulated chloride efflux in these cells.</p><p>S-nitrosoglutathione is an endogenous bronchodilator, present in decreased amounts in the lungs of CF patients. We studied the effect of GSNO on chloride (Cl-) transport in primary nasal epithelial cells from CF patients homozygous for the delF508-CFTR mutation, as well as in two CF cell lines, using a fluorescent Cl- indicator and X-ray microanalysis. GSNO increased chloride efflux in the CF cell lines and in primary nasal epithelial cells from CF patients. This effect was partly mediated by CFTR. If the cells were exposed to GSNO in the presence of L-cysteine, Cl- transport was enhanced after 5 min, but not after 4 h. GSNO may be a candidate for pharmacological treatment of CF patients. </p><p>Chloride transport properties of cultured NCL-SG3 sweat gland cells were investigated. The CFTR protein was neither functional nor expressed in these cells. Ca2+-activated chloride conductance was confirmed and the putative Ca2+-activated chloride channel (CaCC) was further characterized in term of its pharmacological sensitivity.</p><p>Corticosteroids, the primary treatment for asthma, cause necrosis/apoptosis of airway epithelial cells. It was investigated whether a newer generation of drugs used in asthma, leukotriene receptor antagonists, had similar effects. Both montelukast and dexamethasone, but not beclomethasone or budesonide induced apoptosis/necrosis in superficial airway epithelial cells. Montelukast and corticosteroids also caused decreased expression of intercellular adhesion molecule -1 (ICAM-1) in epithelial but not endothelial cells.</p>
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Titanium dioxide nanoparticle uptake across the isolated perfused intestine of rainbow trout : physiological mechanisms and a comparison with Caco-2 cellsAl-Jubory, Aliaa Rasheed January 2013 (has links)
The wide use of nanoscale materials in food and health care products raises the concern of their possible uptake across the gastrointestinal tract, but very limited data are available on their uptake kinetics, and the potential hazards for humans. In this study, the uptake mechanism of titanium dioxide (TiO2) across the isolated perfused fish intestine and human intestinal Caco-2 cells were evaluated. The in vitro preparation of the whole gut sac and the isolated perfused intestine of rainbow trout were performed using both bulk and nano TiO2 in a concentration of 1 mg l-1 for up to 4 h. The results showed that the Ti from both bulk and TiO2 NPs were mainly accumulated in the mid and hind intestine, with 80% or more of the accumulation in the mucosa rather than the underlying muscularis. Perfused intestines showed a saturable, time-dependent accumulation of the Ti from TiO2 and the uptake of Ti from exposure to NPs was faster than that of the bulk form. The uptake of Ti from exposure to TiO2 NPs increases 10 fold when the CO2 in the gas mixture was lowered to 0.5%. Subsequently, further investigation on the mechanisms of uptake of TiO2 was applied using different kinds of inhibitors. Adding 10 mmol l-1 cyanide did not stop Ti uptake from TiO2 exposures, and 100 µmol l-1 vanadate (ATPase inhibitor) caused a 2.8 fold reduction in the net uptake rate of Ti for the TiO2 NP exposure. Luminal additions of 120 IU ml-1 nystatin (endocytosis inhibitor) blocked the uptake of Ti from both bulk and TiO2 NPs treatments. The results indicate that Ti accumulation from TiO2 exposures was sensitive to both nystatin and vanadate; the former suggesting that there is an endocytosis involvement in the uptake of TiO2 across the intestinal epithelium. Human intestinal Caco-2 cell showed a steady, saturable and time-dependent accumulation of Ti over 24 h exposures to 1 mg l-1 TiO2 (for all forms of TiO2). A scanning electron microscope study indicated the appearance of the particles underneath the cells, increasing the evidence of the Ti uptake from different forms of TiO2 by Caco-2 cells. Both nystatin and vanadate increase the accumulation of TiO2 which suggests interference of these drugs with endocytic pathways. All the data in the thesis demonstrates Ti uptake across the intestinal epithelium from TiO2 exposures involving CO2-dependent and nystatin-sensitive mechanisms. The results in this thesis have contributed to some understanding on the behaviour, uptake and effects of the TiO2 NPs across the intestine; and highlight the possible dietary hazard of the NPs to human health.
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Effect of the reproductive cycle on morphology and activity of the ovarian surface epithelium in mammalsSaddick, Salina Yahya January 2010 (has links)
The layer of cells lining the outer surface of the mammalian ovary, the ovarian surface epithelium (OSE), is a constant feature throughout the dynamic tissue remodeling that occurs throughout the reproductive cycle (follicle growth, ovulation, corpora lutea formation and pregnancy). Abnormal development of these cells is responsible for 90% of all epithelial ovarian cancers in women and epidemiological studies have shown that susceptibility to ovarian cancer is negatively correlated with increasing pregnancy. Little is known about how OSE cells are affected at each stage of the cycle, so the main aim of this study was to determine how the reproductive cycle affected proliferation and degeneration of OSE cells. This study utilised three animal models each with a different type of reproductive cycle: a mono-ovular seasonal breeder (Sheep), a mono-ovular polyoestrous breeder (Cow) and a poly-ovular non human primate (marmoset) to allow comparisons to be made. Comparison of OSE proliferative activity was made in sheep and marmoset at each stage of the cycle including pregnancy and anoestrous. The bovine model was used to investigate apoptotic cell death. Proliferative activity of somatic cells within the sheep ovary was monitored throughout the reproductive cycle by detection of cell cycle markers PCNA and Ki67 using immunohistochemistry. The pattern of OSE proliferation was correlated with the pattern of follicle development at each stage (sheep and marmoset). During pregnancy cell proliferation was significantly lower in OSE and in granulosa cells, reflecting a suppression of mature follicle development during these stages whereas in cycling animals proliferation was increased. Differences in OSE proliferation were observed in relation to the local underlying tissue environment in both sheep and marmoset. Epithelial cell rupture and regeneration enhanced the hormonal mitogenic action on epithelial cells, which showed highest proliferation over corpora lutea in each animal model. To test the hypothesis that these changes are mediated by hormones or growth factors ovine OSE cells were cultured and proliferative activity monitored after treatment with several factors: fetal calf serum (FCS), follicular fluid from follicles of varying sizes, corpora lutea extracts, recombinant human IGF-1, oestradiol and progesterone. IGF alone was demonstrated to have an affect on increasing proliferation of cultured OSE cells. Levels of FSHr and LHr were monitored by quantitative real- time PCR and it was demonstrated that the concentration of gonadotrophin receptors in OSE, increased prior to and after ovulation, at which time the in vivo OSE proliferation also peaked. The in situ apoptosis index was determined in bovine tissue using TUNEL throughout the regular cycle, and at mid and late-pregnancy stages. The results showed that pregnancy induced apoptotic activity in OSE cells and up regulated the tumour suppressor gene p53. Cultured bovine OSE cells also exhibited an increased level of apoptosis following progesterone treatment. Since p53/p53 gene expression in OSE over the corpora lutea producing progesterone also increased, this progesterone-mediated apoptosis may be mediated through an up-regulation of p53 synthesis. The effect of pregnancy and low production of gonadotrophins in the regulation of OSE cell morphology and activity was further investigated in the marmoset monkey (a non-human primate) treated with GnRH antagonist and infused with BrdU to monitor proliferative activity. OSE proliferation was correlated to ovarian events (follicular growth, ovulation and luteinization) and this was suppressed during pregnancy. Inhibition of gonadotrophin secretion by treatment with a GnRH antagonist also markedly inhibited OSE proliferation. Taken together these studies support the hypothesis that pregnancy and periods of anovulation reduce proliferation of OSE cells and alter the pattern of apoptotic cell death and that this effect is independent of species and reproductive pattern. Suppression of gonadotrophins and other growth factors during pregnancy could enhance p53-mediated apoptosis of damaged and mitogenic cells arising from repeated ovulations. This effect may partly explain why increasing number of pregnancies in woman reduces the chance of epithelial ovarian cancers.
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Study of inflammatory signalling in epithelial ovarian cancer and the normal human mesotheliumFegan, Kenneth Scott January 2010 (has links)
Epithelial Ovarian Cancer (EOC) kills more women annually in the United Kingdom than any other gynaecological cancer. Survival rates for women diagnosed with EOC have not improved over the past 30 years, due to the often advanced stage at presentation, where widespread intra-peritoneal dissemination has occurred. The natural history of the disease remains uncertain but the ovarian surface epithelium (OSE) is a strong candidate for the tissue of origin. The OSE undergoes cyclical damage and repair in women of reproductive age following ovulation, which can be considered an acute inflammatory event. Factors that prevent ovulation (pregnancy, breastfeeding and contraceptive pill use) also protect against the development of EOC. Previously published data show that the OSE is able to upregulate the enzyme 11-beta hydroxysteroid dehydrogenase type 1 (11βHSD1) in response to inflammation, the enzyme responsible for converting inactive cortisone to anti-inflammatory cortisol. This thesis hypothesises that 11βHSD isozymes are deregulated in ovarian cancer; that the peritoneal surface epithelium (PSE) is indistinguishable from the OSE in its response to inflammation and should be considered a potential source of some “ovarian cancers”; and finally that the expression of the tumour suppressor gene OPCML (OPioid binding Cell adhesion Molecule-Like) is altered by inflammation. These hypotheses were examined at three levels. Firstly, primary cultures of EOC were established, and glucocorticoid metabolism and the response to inflammation was compared to normal OSE. Results from these investigations reveal that the11βHSD1 response to IL-1α stimulation is impaired in EOC compared to normal OSE at the mRNA level but there is no significant difference when 11βHSD1 enzyme activity is measured in these tissues. When basal levels of 11βHSD1, 11βHSD2 and COX2 are compared amongst untreated samples of EOC and OSE, there was a significant correlation between 11βHSD1 and COX2 mRNA expression (P<0.001). 11βHSD2 mRNA expression was significantly higher in the EOC specimens compared to OSE (P<0.05). Secondly the response to inflammation was compared in primary cultures of human peritoneal surface epithelial (PSE) cells and OSE. The data suggest that the mRNA response to inflammation was similar in OSE and PSE, but that the 11βHSD1 enzyme activity was reduced in PSE (P<0.05), which may result in differences in tissue healing. Finally, the effect of inflammation on the expression of the ovarian cancer associated tumour suppressor gene (TSG), OPCML (OPioid binding Cell adhesion Molecule-Like) and the other members of the IgLON family, was examined in OSE. These results suggest that OPCML mRNA expression can be induced by IL-1α, an effect that is inhibited by cortisol.
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The Regulation of AMD Pathobiology by Complement Factor HToomey, Christopher B. January 2016 (has links)
<p>Complement factor H (CFH) is a major susceptibility gene for age-related macular degeneration (AMD); however, its impact on AMD pathobiology is unresolved. Here, the role of CFH in the development of AMD pathology in vivo was interrogated by analyzing aged Cfh+/- and Cfh-/- mice fed a high fat, cholesterol-enriched diet. Strikingly, decreased levels of CFH led to increased sub-retinal pigmented epithelium (RPE) deposit formation, specifically basal laminar deposits, following high fat diet. Mechanistically, our data show that deposits are due to CFH competition for lipoprotein binding sites in Bruch’s membrane. Interestingly and despite sub-RPE deposit formation occurring in both Cfh+/- and Cfh-/- mice, RPE damage accompanied by loss of vision occurred only in old Cfh+/- mice. We demonstrate that such pathology is a function of excess complement activation and C5a production, associated with monocyte recruitment, in Cfh+/- mice versus complement deficiency in Cfh-/- animals. Due to the CFH dependent increase in sub-RPE deposit height we interrogated the potential of CFH as a novel regulator of Bruch’s membrane lipoprotein binding and show, using human Bruch’s membrane explants, that CFH removes endogenous human lipoproteins in aged donors. Interestingly, although the CFH H402 variant shows altered binding to BrM, this does not affect its ability to remove endogenous lipoproteins. This new understanding of the complicated interactions of CFH in AMD-like pathology provides an improved foundation for the development of targeted therapies for AMD.</p> / Dissertation
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